Identification of aberrant luminal progenitors and mTORC1 as a potential breast cancer prevention target in BRCA2 mutation carriers.
Rachel JoyceRosa PascualLuuk HeitinkBianca D CapaldoFrançois VaillantMichael ChristieMinhsuang TsaiElliot SurgenorCasey J A AnttilaPradeep RajasekharFelicity C JacklingMarie TrussartMichael J G MilevskiyXiaoyu SongMengbo LiCharis E TehDaniel H D Graynull nullAaron T L LunYunshun ChenGeoffrey J LindemanJane E VisvaderPublished in: Nature cell biology (2024)
Inheritance of a BRCA2 pathogenic variant conveys a substantial life-time risk of breast cancer. Identification of the cell(s)-of-origin of BRCA2-mutant breast cancer and targetable perturbations that contribute to transformation remains an unmet need for these individuals who frequently undergo prophylactic mastectomy. Using preneoplastic specimens from age-matched, premenopausal females, here we show broad dysregulation across the luminal compartment in BRCA2 mut/+ tissue, including expansion of aberrant ERBB3 lo luminal progenitor and mature cells, and the presence of atypical oestrogen receptor (ER)-positive lesions. Transcriptional profiling and functional assays revealed perturbed proteostasis and translation in ERBB3 lo progenitors in BRCA2 mut/+ breast tissue, independent of ageing. Similar molecular perturbations marked tumours bearing BRCA2-truncating mutations. ERBB3 lo progenitors could generate both ER + and ER - cells, potentially serving as cells-of-origin for ER-positive or triple-negative cancers. Short-term treatment with an mTORC1 inhibitor substantially curtailed tumorigenesis in a preclinical model of BRCA2-deficient breast cancer, thus uncovering a potential prevention strategy for BRCA2 mutation carriers.
Keyphrases
- breast cancer risk
- induced apoptosis
- cell cycle arrest
- single cell
- tyrosine kinase
- estrogen receptor
- gene expression
- breast cancer cells
- stem cells
- cell therapy
- postmenopausal women
- endoplasmic reticulum stress
- endoplasmic reticulum
- oxidative stress
- bioinformatics analysis
- smoking cessation
- binding protein
- replacement therapy
- pi k akt